According to Market Research Future (MRFR), the global fluorinated plasma surface treatment market is expected to reach around USD 3,071 million with a CAGR of 13.5% from 2020 to 2027 (forecast period).
Fluorinated plasma surface treatment is a technology that alters surface properties such as wettability, surface bonding, surface energy, and adhesion to fluorinated gas exposure. It is commonly used as a pre-treatment technique for various surfaces such as polymers, glass, ceramics, fibers, elastomers, and metals in various end-use industries. Plasma technology comprises a wide range of applications, making it one of the leading technologies for surface treatment, particularly for industrial applications. There are two kinds of plasma treatment processes which are low-pressure plasma and atmospheric plasma. Low-pressure plasma is the most common method used for the cleaning of contaminated components, plasma activation, etching, and polymer coating. While atmospheric plasma treatment is used where small surfaces of large parts are needed for treatment. Several of the essential purposes of plasma surface treatment are cleaning, surface activation, coating, and surface etching. Plasma cleaning prevents nanoscale contamination of the surface compared to conventional wet cleaning. Plasma surface activation changes the surface of the polymer by adding it to a polar or functional group. Many polymers, like polyethylene and polypropylene, are chemically inert and have weak bonding to other materials. Fluorinated plasma surface treatment, therefore, stimulates polymers that improve their bonding to paints and coatings. Plasma coating is a thin layer of polymer-coated to the surface. This coating either increases the wettability of the surface or makes the surface hydrophobic. Plasma surface etching is a technique used to raise the surface area of the material to a microscopic level. This treatment is used to increase the energy and wettability of the surface. It is mostly used before printing, painting, and gluing, particularly for polymers that require hard bonding chemicals. Fluorinates plasma surface treatment is widely used in various end-use industries such as automobile, textile, medical, optical, aerospace, electronics, and consumer goods.
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The global market for fluorinated plasma surface treatment has been segmented into North America, Europe, the Asia Pacific, and the rest of the world.
Due to the presence of major end-use industries in the region, Europe accounted for the largest market share of more than 35 % in 2018. The growth of the automotive industries and the involvement of several manufacturers of fluorinated plasma surface treatment in Europe are expected to increase consumer demand in Europe. The automotive industry needs plasma treatment prior to bonding, spraying, and screen printing. As an instance, the shelf life of the headlight is increased by reducing the incursion of water vapor resulting from surface plasma treatment. The European market is expected to register a CAGR of about 13% during the forecast period.
The Asia Pacific is projected to register the fastest-growth with a CAGR of over 15% for the fluorinated plasma surface treatment market during the forecast period. China has the largest market share of 45% in the global market for fluorinated plasma surface treatment and is estimated at around USD 120 million. China is being led by Japan and India. Moreover, India is projected to record the highest CAGR of approximately 17% due to the tremendous growth of the country's textile and electronics industries.
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The global market for fluorinated plasma surface treatment has been segmented by the process, type, application, and substrate type.
Based on the process, the global market for fluorinated plasma surface treatment has been segmented into low-pressure plasma and atmospheric plasma. The segment for low-pressure plasma is estimated to witness a CAGR of around 13% during the forecast period. It is projected to be valued at over USD 2,000 million by 2025 owing to a wide variety of applications in diverse end-use industries.
Based on type, the global market for fluorinated plasma surface treatment has been segmented into synthetic fibers, plastic films, natural fibers, metal, and others. The synthetic fiber segment is projected to register the fastest growth of over 14% and to cross over USD 1,300 million by 2025. In addition, the synthetic type fiber segment is expected to dominate the market with a market share of more than 40% by 2018 due to the growing use of synthetic fibers in the apparel industry.
The fluorinated plasma surface treatment market has a wide variety of applications. Depending on application, the global market is segmented into leather, textiles, and others. The other segment, consisting of automotive parts, medical devices, paints & coatings, electronics, aerospace, marine, and other consumer goods, dominates the global market and register for more than 70% of the market share. In addition, the other segment is the fastest-growing segment and is projected to record a CAGR of more than 13.5 % between 2020 and 2027.
Based on the substrate type, the global market has been divided into garments, household, protective, medical, automotive, shoes & bags, and others. The other segment includes the packaging, electronics, inkjet & printing, glass, aerospace, and marine industries. This segment registered for the largest share of more than 30% in 2018 due to the growing use of fluorinated plasma surface treatment in the electronics, packaging, and aerospace industries. However, the medical segment is anticipated to witness the fastest-growing segment among other substrate types due to increasing healthcare investment in emerging economies such as India and China. The segment was estimated at around USD 300 million in 2018, with a CAGR of about 14% forecast to cross over USD 700 million by the end of 2025.
Plasmatreat (Germany), Nordson Corporation (US), AcXys Technologies (France), Enercon Industries Corporation (US), AST Products, Plasma Etch, Inc (US), Plasmalex sas (France), Inc (US), 3DT LLC (US), Henniker Plasma (UK), and Eltech Engineers Pvt Ltd (China) are a some of the leading players in the global market.
The global market for fluorinated plasma surface treatment is characterized by the presence of many global, regional, and local suppliers. The market is highly competitive, with players vying for full market share. Rapid developments in technology processes and the increasing use of plasma treatment in various end-use industries such as automotive, textile, medical, paint, and adhesives are key factors facing global market growth. Vendors compete on product quality, cost, availability, and product reliability. Vendors must produce cost-effective and high-quality goods in order to succeed in the market.
Strong competition among players has motivated players to develop advanced processing technologies and to launch new products on the market. In addition, manufacturers are also concentrating on increasing production capacity and investing heavily in research and development to produce innovative products for a variety of end-use applications.
The applications of surface modification in interior and exterior parts of the automotive industry, the growing textile industry in the Asia Pacific, and the demand for fluorinated plasma surface treatment in various end-use applications are key factors driving the growth of the global market. The demand for fluorinated plasma surface treatment is expected to be the result of the growing demand for the textile industry's surface modification of natural and synthetic fibers.
However, the hazardous impact of fluorine gas and the presence of potential alternatives, such as laser cleaning, impede the growth of the market. Nevertheless, the growing demand from developing markets such as India and China due to the expansion of the textile industry and electronics in the countries is likely to fuel demand for fluorinated plasma surface treatment in the future.
Plasmatreat, a global developer and distributor of atmospheric plasma-jet technology, opened a new 1,400 square meter technology and research center in October 2019. This expansion has allowed the company to develop new application areas and offer plasma technology for small and medium-sized production applications.